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E E 485: INTRO TO PHOTONICS
4.00 Credits
University of Washington-Seattle Campus
No course description available.
Prerequisite:
Separate File
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E E 485 - INTRO TO PHOTONICS
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E E 486: Fundamentals of Integrated Circuit Technology
3.00 Credits
University of Washington-Seattle Campus
Processing physics, chemistry and technology, including evaporation, sputtering, epitaxial growth, diffusion, ion implantation, laser annealing, oxidation, chemical vapor deposition, photoresists. Design considerations for bipolar and MOS devices, materials and process characterization. Future trends. Offered: jointly with MSE 486.
Prerequisite:
either E E 482 or MSE 351
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E E 486 - Fundamentals of Integrated Circuit Technology
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E E 489: Integrated Circuit Laboratory
1.00 Credits
University of Washington-Seattle Campus
Hands-on experience in the building of a PMOS device, complete with oxidation, diffusion, photolithography, etching, metallization, and testing. Credit/no credit only. Offered: jointly with MSE 489.
Prerequisite:
E E 486/MSE 486, which may be taken concurrently
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E E 489 - Integrated Circuit Laboratory
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E E 495: E trical Engineering Design: Integrated Circuit I
4.00 Credits
University of Washington-Seattle Campus
Engineering design process applied to integrated circuit design implemented in a design project se ed by student teams. E E 496 must be taken to receive E E 495 credit. Credit not allowed for both E E 495/496 and E E497/498.
Prerequisite:
E E 332; either E E 271 or E E 371
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E E 495 - E trical Engineering Design: Integrated Circuit I
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E E 496: Robust E trical Engineering Design: Integrated Circuit II
4.00 Credits
University of Washington-Seattle Campus
Robust engineering design process applied to integrated circuit design implemented in a design project se ed by student teams, including sensitivity analysis and definition of design specifications. Second course of a two-course sequence. Credit not allowed for both E E 495/496 and E E 497/ 498.
Prerequisite:
E E 495
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E E 496 - Robust E trical Engineering Design: Integrated Circuit II
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E E 497: E trical Engineering Design: Consumer Electronics I
4.00 Credits
University of Washington-Seattle Campus
Engineering design process applied to consumer e ronics design implemented in a design project selected by student teams. E E 498 must be taken to receive E E 497 credit. Credit not allowed for both E E 495/496 and E E 497/498.
Prerequisite:
E E 332; either E E 271 or E E 371
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E E 497 - E trical Engineering Design: Consumer Electronics I
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E E 498: Robust E trical Engineering Design: Consumer Electronics II
4.00 Credits
University of Washington-Seattle Campus
Robust engineering design process applied to consumer e ronics design implemented in a design project selected by student teams, including sensitivity analysis and definition of design specifications. Credit not allowed for both E E 495/496 and E E 497/498.
Prerequisite:
E E 497
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E E 498 - Robust E trical Engineering Design: Consumer Electronics II
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E E 499: Special Projects
2.00 - 5.00 Credits
University of Washington-Seattle Campus
Assigned construction or design projects carried out under the supervision of the instructor.
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E E 499 - Special Projects
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E E 500: Graduate Seminar
1.00 Credits
University of Washington-Seattle Campus
Weekly seminars on current topics in e rical engineering. More than one section may be offered in a given quarter. Credit/no credit only.
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E E 500 - Graduate Seminar
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E E 501: Radar Remote Sensing
3.00 Credits
University of Washington-Seattle Campus
Sahr General introduction to radar remote sensing of geophysical targets. Fundamentals of radar systems, range-time diagram, ambiguity function, pulse compression, spectrum estimation for underspread and overspread targets; multiantenna correlations, interferometry, closure phases; maximum entropy source imaging; Aperture Synthesis (SAR and ISAR). .
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E E 501 - Radar Remote Sensing
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